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F-Factor-mediated Restriction of Bacteriophage T7: Protein Synthesis in Cell-free Systems from T7-infected Escherichia Coli F- and F+ Cells

Overview
Journal J Virol
Publisher American Society for Microbiology
Date 1975 Dec 1
PMID 1104892
Citations 3
Authors
Y Yamada
D Nakada
Affiliations
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Abstract

A characteristic phenomenon in the F-factor-mediated inhibition of T7 phage is a virtual absence of T7 late protein synthesis in T7-infected Escherichia coli male cells, in spite of the presence of T7 late mRNA which is translatable in vitro when isolated from the cell. To determine whether the translational defect in T7-infected F+ cells is due to a T7 late mRNA-specific translational block, or to a general decrease of F+ cell translational activity, we compared the activities of cell-free, protein-synthesizing systems prepared from isogenic F- and F+ cells harvested at different times of T7 infection. The cell-free systems from uninfected F- and F+ cells translated T7late mRNA equally as well as MS2 RNA and T7early mRNA. The activity of cell-free systems from T7-infected F+ cells to translate MS2 RAN, T7 early mRNA, and T7 late mRNA decreased concomitantly at a much faster rate than that of T7-infected F- cells. Therefore, the abortive infection of F+ cells by T7 does not result from a T7 late mRNA-specific translational inhibition, although a general reduction of the translational activity appears to be a major factor for the inability of the F+ cells to produce a sufficient amount of T7 late proteins.

Citing Articles

Inhibition of bacteriophage replication by extrachromosomal genetic elements.

Duckworth D, Glenn J, McCorquodale D Microbiol Rev. 1981; 45(1):52-71.

PMID: 6452572 PMC: 281498. DOI: 10.1128/mr.45.1.52-71.1981.

T7 protein synthesis in F-factor-containing cells: evidence for an episomally induced impairment of translation and relation to an alteration in membrane permeability.

Blumberg D, Mabie C, MALAMY M J Virol. 1975; 17(1):94-105.

PMID: 1107598 PMC: 515392. DOI: 10.1128/JVI.17.1.94-105.1976.

Roles of the early genes of bacteriophage T7 in shutoff of host macromolecular synthesis.

McAllister W, Barrett C J Virol. 1977; 23(3):543-53.

PMID: 330878 PMC: 515865. DOI: 10.1128/JVI.23.3.543-553.1977.

References
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Yamada Y, Whitaker P, Nakada D . Functional instability of T7 early mRNA. Nature. 1974; 248(446):335-8. DOI: 10.1038/248335a0. View
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Morrison T, MALAMY M . T7 translational control mechanisms and their inhibiton by F factors. Nat New Biol. 1971; 231(19):37-41. DOI: 10.1038/newbio231037a0. View
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Whitaker P, Yamada Y, Nakada D . F-Factor-mediated restriction of bacteriophage T7: synthesis of RNA and protein in T7-infected Escherichia coli F- and F+ cells. J Virol. 1975; 16(6):1380-90. PMC: 355746. DOI: 10.1128/JVI.16.6.1380-1390.1975. View